Tuesday, April 26, 2016: 11:20 a.m.
Confluence Ballroom A (The Westin Denver Downtown)
Raymond Johnson, Ph.D.
,
Navarro Research and Engineering, Inc., Grand Junction, CO
Stan Morrison, Ph.D.
,
Navarro Research and Engineering, Grand Junction, CO
Sarah Morris
,
Navarro Research and Engineering, Inc., Grand Junction, CO
Aaron Tigar
,
Navarro Research and Engineering, Grand Junction, CO
William Dam
,
U.S. Department of Energy Office of Legacy Management, Grand Junction, CO
Jalena Dayvault
,
U.S. Department of Energy Office of Legacy Management, Grand Junction, CO
At many U.S. Department of Energy Office of Legacy Management sites, natural flushing was selected as a remedial option for groundwater uranium plumes. However, current data indicate that natural flushing is not occurring as quickly as expected and solid-phase and aqueous uranium concentrations are persistent. At the Grand Junction, Colorado office site, column testing was completed on core collected below an area where uranium mill tailings have been removed. The total uranium concentration in this core was 13.2 mg/kg and the column was flushed with laboratory-created water with no uranium and chemistry similar to the nearby Gunnison River. The core was flushed for a total of 91 pore volumes producing a maximum effluent uranium concentration of 6,110 µg/L at 2.1 pore volumes and a minimum uranium concentration of 36.2 µg/L at the final pore volume. These results indicate complex geochemical reactions at small pore volumes and a long tailing affect at greater pore volumes. Stop flow data indicate the occurrence of non-equilibrium processes that create uranium concentration rebound. These data confirm the potential for plume persistence, which is occurring at the field scale. 1D reactive transport modeling was completed using PHREEQC (geochemical model) and calibrated to the column test data manually and using PEST (inverse modeling calibration routine). Processes of sorption, dual porosity with diffusion, mineral dissolution, dispersion, and cation exchange were evaluated separately and in combination. The calibration results indicate that sorption and dual porosity are major processes in explaining the column test data. These processes are also supported by fission track photographs that show solid-phase uranium residing in less mobile pore spaces. These procedures provide valuable information on plume persistence and secondary source processes that may be used to better inform and evaluate remedial strategies, including natural flushing.
Raymond Johnson, Ph.D., Navarro Research and Engineering, Inc., Grand Junction, CO
Dr. Johnson is a geochemist/contaminant hydrogeologist with Navarro Research and Engineering, a contractor for the U.S. Department of Energy Office of Legacy Management. He has 12 years of experience working on reactive transport of uranium in legacy groundwater plumes and predictive modeling of uranium transport related to uranium in situ recovery sites. Much of his prior 15 years of experience in contaminant hydrogeology were related to metal transport in groundwater around areas with abandoned mine lands. He has been in his current position as a contractor for the U.S. Department of Energy for 3 years and was with the U.S. Geological Survey in Denver, Colorado for the prior 12 years.
Stan Morrison, Ph.D., Navarro Research and Engineering, Grand Junction, CO
Stan Morrison is a geochemist with Navarro Research and Engineering, a contractor for the U.S. Department of Energy Office of Legacy Management.
Sarah Morris, Navarro Research and Engineering, Inc., Grand Junction, CO
Sarah Morris is a chemist with Navarro Research and Engineering (contractor to the U.S. Department of Energy Office of Legacy Management).
Aaron Tigar, Navarro Research and Engineering, Grand Junction, CO
Aaron Tigar is a chemist with Navarro Research and Engineering, a contractor for the U.S. Department of Energy Office of Legacy Management.
William Dam, U.S. Department of Energy Office of Legacy Management, Grand Junction, CO
William Dam is a hydrologist/site manager for the U.S. Department of Energy Office of Legacy Management.
Jalena Dayvault, U.S. Department of Energy Office of Legacy Management, Grand Junction, CO
Jalena Dayvault is a scientist with the U.S. Department of Energy Office of Legacy Management.
